Sustainable Electronics: A Blockchain-Empowered Digital Twin Based Governance System for Consumer Electronic Products

Abstract

Industry 4.0 requires digital twins (DTs), a potential technology in the transition. By offering current operational statistics visualizations of physical assets, assisting in decision-making, and mitigating possible hazards in electronic manufacturing environments, DTs are essential to the improvement of distributed consumer electronics. DTs must also work with blockchain technology in dispersed consumer electronics systems to anticipate data privacy and access control. Unfortunately, the single failure of DT collaboration is caused by centralized attacks and data interoperability, authentication, scalability, and connectivity issues. This paper provides the secure architecture for the DTs’ collaboration in consumer electronic devices. Next, we have created an access control mechanism based on a consensus model that combines blockchain, digital twin, and real-time monitoring of consumer devices. The proposed framework uses blockchain technology to empower digital twin-based consumer electronic devices. Specifically, we created a collaborative blockchain architecture based on manufacturer, retailer, and device users, emphasizing a distributed chain code model and real-time access control. The experimental results show that the proposed system integration performs better than the baseline digital twin architecture.Industry 4.0 requires digital twins (DTs), a potential technology in the transition. By offering current operational statistics visualizations of physical assets, assisting in decision-making, and mitigating possible hazards in electronic manufacturing environments, DTs are essential to the improvement of distributed consumer electronics. DTs must also work with blockchain technology in dispersed consumer electronics systems to anticipate data privacy and access control. Unfortunately, the single failure of DT collaboration is caused by centralized attacks and data interoperability, authentication, scalability, and connectivity issues. This paper provides the secure architecture for the DTs’ collaboration in consumer electronic devices. Next, we have created an access control mechanism based on a consensus model that combines blockchain, digital twin, and real-time monitoring of consumer devices. The proposed framework uses blockchain technology to empower digital twin-based consumer electronic devices. Specifically, we created a collaborative blockchain architecture based on manufacturer, retailer, and device users, emphasizing a distributed chain code model and real-time access control. The experimental results show that the proposed system integration performs better than the baseline digital twin architecture.